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Ede Hertelendi (1950–1999)

Published online by Cambridge University Press:  18 July 2016

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Abstract

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Type
Obituary
Copyright
Copyright © 1999 by the Arizona Board of Regents on behalf of the University of Arizona 

References

Selected Publications

1. Csongor, É, Hertelendi, E. 1986. Low-level counting facility for 14C dating. Nuclear Instruments and Methods in Physics Research B 17:493–5.Google Scholar
2. Hertelendi, E, Csongor, É, Záborszky, L, Molnár, J, Gál, J, Györffi, M, Nagy, S. 1989. A counter system for high-precision 14C dating. Radiocarbon 31(3): 399406.CrossRefGoogle Scholar
3. Csongor, É, Szabó, I, Hertelendi, E. 1982. Preparation of counting gas of proportional counters for radiocarbon dating. Radiochemical and Radioanalytical Letters 55:303–5.Google Scholar
4. Hertelendi, E. 1990. Sources of random error in the Debreccn radiocarbon laboratory. Radiocarbon 32(3):283–6.Google Scholar
5. Hertelendi, E, Gál, J, Paál, A, Fekete, S, Györffi, M, Gál, I, Kertész, Zs, Nagy, S. 1987. Stable isotope mass spectrometer. Fourth Working Meeting Isotopes in Nature. In: Wand, U, Strauch, G, editors. Akademie der Wissenschaften der DDR Zentralinstitut für Isotopen und Strahlenforschung, Leipzig 1:323–8.Google Scholar
6. Berecz, I, Balogh, K, Bohátka, S, Hertelendi, E, Kövér, L, Langer, G. 1990. Developments in mass and electron spectrometry. Acta Chimica Hungarica 127:525–30.Google Scholar
7. Csongor, É, Bognár-Kutzián, I, Szabó, I, Hertelendi, E. 1983. Radiocarbon dating of holocene bone samples in Hungary. Chemical and Mathematical Techniques Applied to Archaeology (PACT) 8: 385–91.Google Scholar
8. Hertelendi, E. 1990. Age of the logboat discovered near Tiszabecs. In: Németh, P, Istvánovits, E, editors. Annual Report of Jósa András Museum 33: 83–4.Google Scholar
9. Hertelendi, E. 1991. Radiocarbon dating of a wood sample from an excavation near Esztergom-Gyurgyalag. Acta Archaeologica Academiae Scientiarum Hungaricae 43:256–7.Google Scholar
10. Hertelendi, E. 1993. Radiocarbon age of a bone sample from the Upper-Paleolithic settlement near Jászfelsőszentgyörgy. Tisicum 8:61–2.Google Scholar
11. Hertelendi, E. 1995. 14C dating of Zalaszentbalázs-Szőlőhegyi mező 1992–93. In: Szőke, BM, editor. Archeology and Settlement History in the Hahót Basin, Southwest Hungary. Antaeus communicationes ex Instituto Archaeologico Academiae Scientiarum Hungaricae 22:105–7.Google Scholar
12. Hertelendi, E, Horváth, F. 1992. Radiocarbon chronology of Late Neolithic settlements in the Tisza-Maros region, Hungary. Radiocarbon 34(3):859–66.Google Scholar
13. Horváth, F. Hertelendi, E. 1994. Contribution to the 14C based absolute chronology of the Early and Middle Neolithic Tisza region. In: Németh, P, Istvánovits, E, editors. Annual report of Jósa András Museum 36:111–32.Google Scholar
14. Hertelendi, E, Kalicz, N, Raczky, P, Horváth, F, Veres, M, Svingor, É, Futó, I, Bartosiewicz, L. 1995. Re-evaluation of the Neolithic in eastern Hungary based on calibrated radiocarbon dates. Radiocarbon 37(2):239–46.Google Scholar
15. Hertelendi, E, Svingor, É, Raczky, P, Horváth, F, Futó, I, Bartosiewicz, L. 1998. Duration of tell settlements at four prehistoric sites in Hungary. Radiocarbon 40(2):659–67.Google Scholar
16. Hertelendi, E, Svingor, É, Raczky, P, Horváth, F, Futó, I, Bartosiewicz, L. 1998. M. Molnár: Radiocarbon chronology of the Neolithic and time span of tell settlements in eastern Hungary based on calibrated radiocarbon dates. In: Költő, L, Bartosiewicz, L, editors. Archaeometrical research in Hungary II. Budapest-Kaposvár-Veszprém: Hungarian National Museum and Directorate of Somogy Museums. p 6170.Google Scholar
17. Raczky, P, Hertelendi, E, Horváth, F. 1992. Zur Absoluten Datierung der bronzezeitlichen Tell Kulturen in Ungarn. Bronzezeit in Ungarn. Forschungen in Tell-Siedlungen an Donau und Theiss. In: Fodor, I, Meier-Arendt, W, Raczky, P, editors. Walter Meier Arendt im Auftrag des Dezernats Kultur und Freizeit der Stadt Frankfurt A.M. p 42–4.Google Scholar
18. Raczky, P, Hertelendi, E, Horváth, F. 1992. Zur Absoluten Datierung der bronzezeitlichen Tell Kulturen in Ungarn. In: Fodor, I, Meier-Arendt, W, Raczky, P, editors. Bronzezeit in Ungarn. Forschungen in Tell-Siedlungen an Donau und Theiss. Szolnok: Damjanich Museum. p 939.Google Scholar
19. Figler, A, Bartosiewicz, L, Füleky, Gy, Hertelendi, E. 1997. Copper age settlement and the Danube water System: a case study from North-Western Hungary. In: Chapman, C, Dolukhanov, P, editors. Landscapes in Flux Central and Eastern Europe in Antiquity. Oxford: Oxbow Books. p 209–30.Google Scholar
20. Szöőr, Gy, Sümegi, P, Hertelendi, E. 1991. New potential in tracing climatic changes in the Quaternary period by malacological and isotope geochemical methods. In: Pécsi, M, Schweitzer, F, editors. Quaternary environment in Hungary. Budapest: Academic Press. 6173 p.Google Scholar
21. Sümegi, P, Hertelendi, E. 1998. Reconstruction of microenvironmental changes in Kopasz hill loess area at Tokaj (Hungary) between 15 and 70 ka BP. Radiocarbon 40(2):855–65.Google Scholar
22. Sümegi, P, Hertelendi, E, Magyari, E, Molnár, M. 1998. Evolution of the environment in the Carpatian basin during the last 30,000 BP years and its effects on the ancient habits of the different cultures. In: Költő, L, Bartosiewicz, L, editors. Archaeometrical research in Hungary II. Budapest-Kaposvár-Veszprém: Hungarian National Museum and Directorate of Somogy Museums. p 183–98.Google Scholar
23. Gyulai, J, Hertelendi, E, Szabo, I. 1992. Plant remains from the early medieval lakeshore settlement Fonyód-Bélatelep (Lake Balaton, Hungary) with especial emphasis on the history of fruit cultivation in Pannonia. Vegetation history and archaeobotany 1:177–81.CrossRefGoogle Scholar
24. Hertelendi, E, Vető, I. 1989. Isotopically light aquatic kerogen in the Hungarian Oligocene. In: Wanda, U, Strauch, G, editors. 5th Working Meeting Isotopes in Nature; 1989 Sept; Leipzig. Leipzig: Academy of Sciences of the GDR, Central Institute of Isotope and Radiation Research. p 311–4.Google Scholar
25. Sümegi, P, Hertelendi, E, Szöőr, Gy. 1990. Paleoenvironmental reconstruction of the last period of the Upper Würm in the Hungary based on malacological and radiocarbon data. Soósiana 19:17–20.Google Scholar
26. Hertelendi, E, Sümegi, P, Szöőr, Gy. 1992. Geochronologic and paleoclimatic characterization of Quaternary sediments in the Great Hungarian Plain. Radiocarbon 34(3):833–9.CrossRefGoogle Scholar
27. Kertész, R, Sümegi, P, Kozák, M, Braun, M, Félegyházi, E, Hertelendi, E. 1993. Archeological and paleoecological study of an early Holocene settlement in the Jászság area (Jászberény I). Communications from the Deparment of Mineralogy and Geology of Kossuth Lajos University. Acta Geographica Debrecina 32:516.Google Scholar
28. Kertész, R, Sümegi, P, Kozák, M, Braun, M, Félegyházi, E, Hertelendi, E. 1994. Mesolithikum im nördlichen Teil der Großen Ungarischen Tiefebene. In: Németh, P, Istvánovits, E, editors. Annual report of Jósa András Museum 36:15–39.Google Scholar
29. Deák, J, Forizs, I, Dezső, É, Hertelendi, E. 1993. Origin of groundwater and dissolved ammonium in SE Hungary: evaluation by environmental isotopes. In: Peters, NE, Hoehn, E, Leibundgut, Ch et al., editors. Tracers in hydrology. Proceedings of an International Symposium 1993 Jul 21–23; Yokohama, Japan. Tokyo: IAHS-IAEA. IAHS Publication 215:116–21.Google Scholar
30. Hertelendi, E, Veres, M, Futó, I, Svingor, É, Mikó, L, Lénárt, L, Deák, J, Süveges, M. 1995. Radiocarbon concentration and origin of thermal karst waters in the region of the Bükk Mountains, northeastern Hungary. Radiocarbon 37(2):543–50.Google Scholar
31. Hertelendi, E, Svingor, É, Futó, I, Szántó, Zs, Rank, D. 1997. Isotope Investigation of Lake Vrana and Springs in the Kvarner Area. Rapid Communication in Mass Spectrometry 11:651–5.3.0.CO;2-G>CrossRefGoogle Scholar
32. Lóki, J, Hertelendi, E, Borsy, Z. 1994. New dating of blown sand movement in the Nyírség. Communications from the Geographical Institute of the Kossuth Lajos University of Debrecen 188:6778.Google Scholar
33. Hertelendi, E, Vető, I. 1991. The marine photosyntetic carbon isotopic fractionation remained constant during the Early Oligocene. Palaeogeography, Palaeoclimatology, Palaeoecology 83:333–9.Google Scholar
34. Vető, I, Demény, A, Hertelendi, E, Hetényi, M. 1997. Estimation of primary productivity in the Toarcian Tethys – a novel approach based on TOC, reduced sulphur and manganese contents. Palaeogeography, Palaeoclimatology, Palaeoecology 132:355–71.CrossRefGoogle Scholar
35. Hertelendi, E, Csongor, É. 1982. Athropogenic 14C excess in the troposphere between 1951 and 1978 measured in tree rings. Radiochemical and Radioanalytical Letters 56:103–5.Google Scholar
36. Vető, I, Hertelendi, E, Sajgó, Cs. 1999. A. Brukner-Wein: Upward increase of kerogen δ13C in the Peru Margin Upper Oligocene: possible implications for the Cenozoic evolution of atmospheric CO2 . Palaeogeography, Palaeoclimatology, Palaeoecology 145:3342.Google Scholar
37. Hertelendi, E. 1998. Radiometric methods for dating groundwater. In: Vértes, A, Nagy, S, Süvegh, K, editors. Nuclear methods in mineralogy and geology: techniques and applications. New York and London: Plenum Press. p 425–52.Google Scholar
38. Hertelendi, E. 1998. Radiokarbon kormeghatározás. (Radiocarbon dating. In Hungarian). In: Ilon, G, editor. PANNICVLVS. Ser B, Nr 3. A régésztechnikus kézikönyve. I. Szombathely: Savaria Múzeum. p 311–35.Google Scholar
39. Csongor, É, Hertelendi, E. 1982. Fission products and radiocarbon as environmental pollutants due to atmospheric nuclear weapon tests measured in Debrecen since 1952. Atomki Közlemények 24: 179–82.Google Scholar
40. Uchrin, G, Ormai, P, Hertelendi, E. 1989. Local and global impact of tritium and carbon-14 released from Paks Nuclear Power Plant. In: Minkovic, MM, Pavlovic, RS, Raicevic, JJ, editors. Proceedings of the 30th anniversary symposium of radiation protection in the Boris Kidric Institute of Nuclear Science, radiation protection selected topics. Belgrade: Boris Kidric Institute. p 358–67.Google Scholar
41. Hertelendi, E, Uchrin, G, Ormai, P. 1989. 14C release in various chemical forms with gaseous effluents from Paks Nuclear Power Plant. Radiocarbon 31(3):154–60.Google Scholar
42. Uchrin, G, Csaba, E, Hertelendi, E, Ormai, P, Barnabás, I. 1992. C-14 release from a Soviet design pressurised water reactor nuclear power plant. Health Physics 63:651–9.Google Scholar
43. Veres, M, Hertelendi, E, Uchrin, G, Csaba, E, Barnabás, I, Ormai, P, Volent, G, Futó, I. 1995. Concentration of radiocarbon and its chemical forms in gaseous effluents, environmental air, nuclear waste and primary water of a pressurized water reactor power plant in Hungary. Radiocarbon 37(2):497504.CrossRefGoogle Scholar
44. Uchrin, G, Hertelendi, E, Volent, G, Slavik, O, Morávek, J, Kobal, I, Vokal, B. 1998. 14C measurements at PWR type nuclear power plants in three Middle European countries. Radiocarbon 40(2):439–47.Google Scholar